VOC EMISSION TEST REPORT Indoor Air Comfort GOLD
|
|
- Basil Nichols
- 5 years ago
- Views:
Transcription
1 Scan Underlay Production ApS Ursusvej Galten DENMARK Eurofins Product Testing A/S Smedeskovvej Galten Denmark 1 Sample Information VOC EMISSION TEST REPORT Indoor Air Comfort GOLD 24 May 2018 Sample name Scan Underlay Acoustic Silence 1050 Batch no. - Production date 03/04/2018 Product type Underlay Sample reception 10/04/ Brief Evaluation of the Results Regulation or protocol Conclusion Version of regulation or protocol French VOC Regulation Regulation of March and May 2011 (DEVL D and DEVL A) French CMR components Pass Regulation of April and May 2009 (DEVP A and DEVP A) AgBB/ABG Pass Anforderungen an bauliche Anlagen bezüglich des Gesundheitsschutzes (ABG), Entwurf Belgian Regulation Pass Royal decree of May 2015 (C-2014/24239) EMICODE EC 1 PLUS October 2017 Indoor Air Comfort Pass Indoor Air Comfort 6.0 of February 2017 Indoor Air Comfort GOLD Pass Indoor Air Comfort GOLD 6.0 of February 2017 Blue Angel (RAL UZ 156) Pass RAL UZ 156 for Low-Emission Flooring Underlays, (Version February 2011) BREEAM International Compliant GN22 v2.3 (March 2018): BREEAM Recognised Schemes for VOC Emissions from Building Products LEED v4 (outside U.S.) Compliant LEED v4 for Building Design and Construction (April, 2015) Full details based on the testing and direct comparison with limit values are available in the following pages _A_EN Page 1 of 18
2 Table of contents 1 Sample Information 1 2 Brief Evaluation of the Results 1 3 Applied Test Methods General Test References Specific Laboratory Sampling and Analyses 3 4 Test Parameters, Sample Preparation and Deviations VOC Emission Chamber Test Parameters Preparation of the Test Specimen Picture of Sample Deviations from Referenced Protocols and Regulations 4 5 Results VOC Emission Test Results after 3 Days VOC Emission Test Results after 28 Days 6 6 Summary and Evaluation of the Results Comparison with Limit Values of the French VOC Regulation Comparison with Limit Values of the CMR Components Comparison with VOC Limit Values of AgBB/ABG Comparison with Limit Values of the Belgian Regulation Comparison with Limit Values of EMICODE Comparison with Limit Values of Indoor Air Comfort Comparison with Limit Values of Indoor Air Comfort Gold Comparison with Limit Values of Blue Angel (RAL UZ 156) Comparison with Limit Values of LEED v Appendices Chromatogram of VOC Emissions after 3 Days Chromatogram of VOC Emissions after 28 Days Sampling Report How to Understand the Results Applied LCI and NIK Values Description of VOC Emission Test Quality Assurance Accreditation Uncertainty of the Test Method _A_EN Page 2 of 18
3 3 Applied Test Methods 3.1 General Test References Regulation, protocol or standard Version Reporting limit VOC [µg/m³] Calculation of TVOC Combined uncertainty [RSD(%)] EN October Toluene equivalents 22% ISO depending on part 2 Toluene equivalents 22% ASTM D Specifications Indoor Air Comfort Gold French VOC Classes French CMR 6.0 of February Toluene equivalents 22% Regulation of March and May 2011 (DEVL D and DEVL A) Regulation of April and May 2009 (DEVP A and DEVP A) 2 Toluene equivalents 22% 1 Toluene equivalents 22% AgBB/DIBt February 2015/October Compound Specific 22% AgBB/ABG Compound Specific 22% Belgian VOC Royal decree of May 2015 (C / 24239) 5 Toluene equivalents 22% LEED v4 April Specific Laboratory Sampling and Analyses Procedure External Method Internal SOP Quantification limit / sampling volume Analytical principle Uncertainty [RSD(%)] Sample preparation Emission chamber testing Sampling of VOC Analysis of VOC Sampling of aldehydes Analysis of aldehydes Sampling of phthalates Analysis of phthalates* ISO :2006, EN16402:2013, CDPH, AgBB/DIBt, EMICODE ISO :2006, EN 16516:2017 ISO :2011, EN 16516:2017 ISO :2011, EN 16516:2017 ISO :2011, EN 16516:2017 ISO :2011, EN 717-1, EN 16516:2017 ISO , MEL-09, OSHA CSI CPSC-CH-C (2010) 71M M Chamber and air control 71M L Tenax TA - 71M542808B 1 µg/m³ ATD-GC/MS 10% 71M L DNPH - 71M µg/m³ HPLC-UV 10% 71M L XAD-2-71M µg/m³ GC/MS 10% _A_EN Page 3 of 18
4 4 Test Parameters, Sample Preparation and Deviations 4.1 VOC Emission Chamber Test Parameters Parameter Value Parameter Value Chamber volume, V[L] 119 Preconditioning period - Air Change rate, n[h -1 ] 0.5 Test period 19/04/ /05/2018 Relative humidity of supply air, RH [%] Temperature of supply air, T [ C] 50 ± Preparation of the Test Specimen Area specific ventilation rate, q [m/h or m³/m²/h] ± 1 Loading factor [m²/m³] 0.4 Test scenario The sample was transferred directly into the test chamber. Flooring or ceiling 4.3 Picture of Sample 4.4 Deviations from Referenced Protocols and Regulations No deviations from the referenced test methods were observed _A_EN Page 4 of 18
5 5 Results 5.1 VOC Emission Test Results after 3 Days CAS No. Retention time ID- Cat Specific Conc. Toluene eq. Specific SER R D R B [min] [µg/m³] [µg/m³] [µg/(m² h)] VOC with NIK 1,2-Propandiol (Propylene glycol) * VOC without NIK < Benzothiazole * Sum of VOC without NIK VVOC compounds None determined TVVOC < 5 < 5 < 7 SVOC compounds None determined TSVOC < 5 < 5 < 7 Carcinogens Total carcinogens < 1 < 1 < 2 Aldehydes Formaldehyde Acetaldehyde < 3 < 4 Propionaldehyde < 3 < 4 Butyraldehyde < 3 < 4 2-butenal < 5 < 7 Glutaraldehyde < 5 < 7 R-values TVOC _A_EN Page 5 of 18
6 5.2 VOC Emission Test Results after 28 Days CAS No. Retention time ID- Cat Specific Conc. Toluene eq. Specific SER R D R B [min] [µg/m³] [µg/m³] [µg/(m² h)] VOC with NIK None determined VOC without NIK Benzothiazole * Sum of VOC without NIK VVOC compounds None determined TVVOC < 5 < 5 < 7 SVOC compounds None determined TSVOC < 5 < 5 < 7 Carcinogens Total carcinogens < 1 < 1 < 2 CMR substances Benzene < 1 < 2 Trichloroethylene < 1 < 2 Dibutylphthalate (DBP)* < 1 < 2 Diethylhexylphthalate (DEHP)* Aldehydes < 1 < 2 Formaldehyde Acetaldehyde < 3 < 4 Propionaldehyde < 3 < 4 Butyraldehyde < 3 < 4 2-butenal < 5 < 7 Glutaraldehyde < 5 < 7 R-values 0 0 TVOC TVOC (French label) 12 Toluene < 2 < 2 < 3 Tetrachloroethylene < 2 < 2 < _A_EN Page 6 of 18
7 CAS No. Retention time ID- Cat Specific Conc. Toluene eq. Specific SER R D R B [min] [µg/m³] [µg/m³] [µg/(m² h)] Ethylbenzene < 2 < 2 < 3 Xylene < 2 < 2 < 3 Styrene < 2 < 2 < 3 2-Butoxyethanol < 2 < 2 < 3 1,2,4-Trimethylbenzene < 2 < 2 < 3 1,4-Dichlorobenzene < 2 < 2 < _A_EN Page 7 of 18
8 6 Summary and Evaluation of the Results 6.1 Comparison with Limit Values of the French VOC Regulation CAS No. Conc. 28 days µg/m³ µg/m³ µg/m³ µg/m³ µg/m³ TVOC - 12 >2000 <2000 <1500 <1000 Formaldehyde >120 <120 <60 <10 Acetaldehyde < 3 >400 <400 <300 <200 Toluene < 2 >600 <600 <450 <300 Tetrachloroethylene < 2 >500 <500 <350 <250 Ethylbenzene < 2 >1500 <1500 <1000 <750 Xylene < 2 >400 <400 <300 <200 Styrene < 2 >500 <500 <350 <250 2-Butoxyethanol < 2 >2000 <2000 <1500 <1000 1,2,4-Trimethylbenzene < 2 >2000 <2000 <1500 <1000 1,4-Dichlorobenzene < 2 >120 <120 <90 <60 The product was assigned a VOC emission class without taking into account the measurement uncertainty associated with the result. As specified in French Decree no of March , correct assignment of the VOC emission class is the sole responsibility of the party responsible for distribution of the product in the French market. 6.2 Comparison with Limit Values of the CMR Components CMR substances CAS No. Conc. 28 days µg/m³ Max. allowed air concentration µg/m³ Benzene < 1 < 1 Trichloroethylene < 1 < 1 Dibutylphthalate (DBP)* < 1 < 1 Diethylhexylphthalate (DEHP)* < 1 < _A_EN Page 8 of 18
9 6.3 Comparison with VOC Limit Values of AgBB/ABG Parameter Test after 3 days Test after 28 days Concentration Limit Value Concentration Limit Value mg/m³ mg/m³ mg/m³ mg/m³ TVOC TSVOC < < R-value (dimensionless) Sum without NIK Formaldehyde Total carcinogens < < Compliance with the limits alone does not entitle to use the AgBB requirements in conjunction with approval by DIBt. This requires an application, site inspection, and approval. See Comparison with Limit Values of the Belgian Regulation Parameter Test after 28 days Concentration µg/m³ Limit Value µg/m³ TVOC (EN 16516) TSVOC < R-value (dimensionless) 0 1 Total carcinogens < 1 1 Toluene < Formaldehyde Acetaldehyde < _A_EN Page 9 of 18
10 6.5 Comparison with Limit Values of EMICODE Parameter Concentration EC 2 EC 1 EC 1 PLUS µg/m³ µg/m³ µg/m³ µg/m³ TVOC 3 days TVOC 28 days TSVOC 28 days < Sum without NIK 28 days 5.4 >40 40 R-value 28 days (dimensionless) 0 >1 1 Formaldehyde 3 days Acetaldehyde 3 days < 3 50 Sum Formaldehyde + Acetaldehyde [ppm] Sum carcinogens 3 days < 1 10 Sum carcinogens 28 days < 1 1 This test report does not alone entitle to use the protected trademark label EMICODE. For the use of an EMICODE label a license has to be applied for at the GEV, Düsseldorf, Germany. A license can only be granted for ready-to use products, if some additional requirements on contents of certain chemicals (e.g. solvent-free) are fulfilled. Note: The label is supplemented with a final letter R (e.g. EMICODE EC 1 R) for installation products that fulfill the specification in clause sentence 2 of GEV classification criteria and that therefore may require measures for ensuring occupational safety during application. 6.6 Comparison with Limit Values of Indoor Air Comfort Test after 3 days Test after 28 days Concentration Limit Value Concentration Limit Value µg/m³ µg/m³ µg/m³ µg/m³ TVOC (EN 16516) TSVOC < 5 - < R D -value (NIK) (dimensionless) R B -value (LCI) (dimensionless) TVOC without NIK or LCI Total carcinogens < Any individual carcinogens - - < 1 1 CMR substances - - < 1 1 Formaldehyde Acetaldehyde < 3 - < French A+/A - - Complies Compliance with the limits alone does not entitle to use the Indoor Air Comfort label. This requires an application, site inspection, and approval. See _A_EN Page 10 of 18
11 6.7 Comparison with Limit Values of Indoor Air Comfort Gold Test after 3 days Test after 28 days Concentration Limit Value Concentration Limit Value µg/m³ µg/m³ µg/m³ µg/m³ TVOC (EN 16516) TSVOC < 5 - < 5 30 R D -value (NIK) (dimensionless) R B -value (LCI) (dimensionless) TVOC without NIK or LCI Total carcinogens < Any individual carcinogens - - < 1 1 CMR substances - - < 1 1 Formaldehyde Acetaldehyde < 3 50 < 3 50 Sum Formaldehyde + Acetaldehyde [ppb] < Propionaldehyde - - < 3 60 Butyraldehyde - - < 3 60 French A+ - - Complies Compliance with the limits alone does not entitle to use the Indoor Air Comfort GOLD label. This requires an application, site inspection, and approval. See Comparison with Limit Values of Blue Angel (RAL UZ 156) Test after 3 days Test after 28 days Concentration Limit Value Concentration Limit Value µg/m³ µg/m³ µg/m³ µg/m³ TVOC TSVOC < 5 - < 5 30 R-value (dimensionless) TVOC without NIK Total carcinogens < Any individual carcinogens < 1 - < 1 1 Formaldehyde Comparison with Limit Values of LEED v4 Result Not Compliant Compliant Indoor Air Comfort GOLD Pass Fail Pass _A_EN Page 11 of 18
12 7 Appendices 7.1 Chromatogram of VOC Emissions after 3 Days 7.2 Chromatogram of VOC Emissions after 28 Days Please consider the different scales _A_EN Page 12 of 18
13 7.3 Sampling Report _A_EN Page 13 of 18
14 7.4 How to Understand the Results Acronyms Used in the Report < Means less than > Means bigger than * Not a part of our accreditation Please see section regarding uncertainty in the Appendices. Deviation from method. Please see deviation section a The method is not optimal for very volatile compounds. For these substances smaller results and a higher measurement uncertainty cannot be ruled out. b The component originates from the wooden panels and is thus removed. c The results have been corrected by the emission from wooden panels. d Very polar organic compounds are not suitable for reliable quantification using tenax TA adsorbent and HP-5 GC column. A high degree of uncertainty must be expected. e The component may be overestimated due to contribution from the system SER Specific Emission Rate Explanation of ID Category Categories of Identity: 1: Identified and specifically calibrated 2: Identified by comparison with a mass spectrum obtained from library and supported by other information. Calibrated as toluene equivalent. 3: Identified by comparison with a mass spectrum obtained from a library. Calibrated as toluene equivalent. 4: Not identified, calibrated as toluene equivalent _A_EN Page 14 of 18
15 7.5 Applied LCI and NIK Values LCI/NIK Values for Compounds found after 3 Day Measurements Compound CAS No. AgBB 2015 NIK Belgian NIK [µg/m³] [µg/m³] 1,2-Propandiol (Propylene glycol) * Formaldehyde LCI/NIK Values for Compounds found after 28 Day Measurements Compound CAS No. AgBB 2015 NIK Belgian NIK [µg/m³] [µg/m³] Formaldehyde _A_EN Page 15 of 18
16 7.6 Description of VOC Emission Test Test Chamber The test chamber is made of stainless steel. A multi-step air clean-up is performed before loading the chamber, and a blank check of the empty chamber is performed. The chamber operation parameters are as described in the test method section. (EN 16516, ISO , internal method no.: 71M549811) Expression of the Test Results All test results are calculated as specific emission rate, and as extrapolated air concentration in the European Reference Room (EN 16516, AgBB, EMICODE, M1 and Indoor Air Comfort) Testing of Carcinogenic VOCs The emission of carcinogens (EU Categories C1A and C1B, as per European law) is tested by drawing sample air from the test chamber outlet through Tenax TA tubes after the specified duration of storage in the ventilated test chamber. Analysis is performed by ATD-GC/MS (automated thermal desorption coupled with gas chromatography and mass spectroscopy using 30 m HP-5 (slightly polar) column with 0.25 mm ID and 0.25 µm film, Agilent) (EN 16516, ISO , internal methods no.: 71M / 71M542808B). All identified carcinogenic VOCs are listed; if a carcinogenic VOC is not listed then it has not been detected. Quantification is performed using the TIC signal and authentic response factors, or the relative response factors relative to toluene for the individual compounds. This test only covers substances that can be adsorbed on Tenax TA and can be thermally desorbed. If other emissions occur, then these substances cannot be detected (or with limited reliability only) Testing of VOC, SVOC and VVOC The emissions of volatile organic compounds are tested by drawing sample air from the test chamber outlet through Tenax TA tubes after the specified duration of storage in the ventilated test chamber. Analysis is performed by ATD-GC/MS using HP-5 column (30 m, 0.25mm ID, 0.25µm film) (EN 16516, ISO , internal methods no.: 71M / 71M542808B). All single substances that are listed with a LCI/NIK value in the latest publications (hereafter referred to as target compounds) are identified if present. All other appearing VOCs are identified as far as possible. Quantification of target compounds is done using the TIC signal and authentic response factors, or the relative response factors relative to toluene. For certain compound groups, which differ significantly in chemistry from toluene, quantification is performed relative to a representative member of the group for more accurate and precise results. This can include quantification of for example glycols and acids. In addition to that, all results are also expressed in toluene equivalents. All non-target compounds, as well as all nonidentified substances, are quantified in toluene equivalents. The results of the individual substances are calculated in three groups depending on their retention time when analyzing using a non-polar column (HP-1): - Volatile Organic Compounds (VOC) are defined as: All substances eluting between and including n-hexane (n-c6) and n-hexadecane (n-c16) - Semi-Volatile Organic Compounds (SVOC) are defined as: All substances eluting after n-hexadecane (n-c16) and before and including n-docosane (n-c22) - Very Volatile Organic Compounds (VVOC) are defined as: All substances eluting before n-hexane (n-c6) _A_EN Page 16 of 18
17 Total Volatile Organic Compounds (TVOC) is calculated by summation of all individual VOCs with a concentration 5 µg/m³. The TVOC can be expressed either in toluene equivalents as defined in EN and similar to ISO , or as the sum of concentrations using specific or relative response factors. In the case of summation of concentrations using authentic or relative response factors, the toluene equivalent is applied to all non-target and non-identified VOCs before summing up. Compounds regarded as VOC in line with the above definition but elute before n-c6 or after n-c16 on the HP-5 column are treated as VOC, and are thus added to the TVOC. Total Semi-Volatile Organic Compounds (TSVOC) is calculated by the summation of all individual SVOCs expressed in toluene equivalents with a concentration 5 µg/m³, as defined in EN VOCs that are regarded as VOC in line with the above definition, but elute after n-c16 in this test, are not added to the TSVOC. Total Very Volatile Organic Compounds (TVVOC) is calculated by the summation of all individual VVOCs with a concentration 5 µg/m³ and expressed in toluene equivalents. VOCs that are regarded as VOC in line with the above definition, but elute before n-c6 in this test, are not added to the TVVOC. This test only covers substances which can be adsorbed on Tenax TA and can be thermally desorbed. If emissions of substances outside these specifications occur then these substances cannot be detected (or with limited reliability only) Calculation of R Values with LCI Lists The concentrations of detected compounds 5 µg/m³ are divided by their respective LCI/NIK value (if defined in the given publication). The sum of the quotients gives the R value, which can be mathematically expressed: This R value is calculated, depending on the purpose of this test, for the European LCI list, for the German LCI/NIK list (R D ), and/or for the Belgian LCI list (R B ). All VOCs without published LCI/NIK value and concentration 5 µg/m³ are summed up as sum of VOCs without LCI/NIK if required by the standard or protocol Testing of Aldehydes The presence of aldehydes is tested by drawing air samples from the test chamber outlet through DNPHcoated silicagel tubes after the specified duration of storage in the ventilated test chamber. Analysis is performed by solvent desorption and subsequently by HPLC and UV-/diode array detection. The absence of formaldehyde and other aldehydes is stated if UV detector response at the specific wavelength is lacking at the specific retention time in the chromatogram. Otherwise it is checked whether the reporting limit is exceeded. In this case the identity is finally checked by comparing full scan sample UV spectra with full scan standard UV spectra Testing of Phthalates The presence of phthalates is tested by drawing air samples from the test chamber outlet through tube with XAD-II adsorbent after the specified duration of storage in the ventilated test chamber. Analysis is performed by solvent desorption and subsequently by GC/MS. Analysis of phthalates is not currently covered by the accreditation (Internal methods no.: 71M / 71M546060) _A_EN Page 17 of 18
18 7.7 Quality Assurance Before loading the test chamber, a blank check of the empty chamber is performed and compliance with background concentrations in accordance with EN / ISO is determined. Air sampling at the chamber outlet and subsequent analysis is performed in duplicate. Relative humidity, temperature and air change rate in the chambers is logged every 5 minutes and checked daily. A double determination is performed on random samples at a regular interval and results are registered in a control chart to ensure the uncertainty and reproducibility of the method. The stability of the analytical system is checked by a general function test of device and column, and by use of control charts for monitoring the response of individual substances prior to each analytical sequence. 7.8 Accreditation The testing methods described above are accredited on line with EN ISO/IEC by DANAK (no. 522). This accreditation is valid worldwide due to mutual approvals of the national accreditation bodies (ILAC/IAF, see also Not all parameters are covered by this accreditation. The accreditation does not cover parameters marked with an asterisk (*), however analysis of these parameters is conducted at the same level of quality as for the accredited parameters. 7.9 Uncertainty of the Test Method The relative standard deviation of the overall analysis is 22%. The expanded uncertainty Um equals 2 x RSD. For further information please visit _A_EN Page 18 of 18
VOC TEST REPORT Indoor Air Comfort GOLD
Hunter Douglas Europe BV Piekstraat 2 3071 EL Rotterdam NETHERLANDS Eurofins Product Testing A/S Smedeskovvej 38 8464 Galten Denmark VOC@eurofins.com www.eurofins.com/voc-testing 1 Sample Information VOC
More informationVOC EMISSION TEST REPORT Indoor Air Comfort GOLD
POLYSEAM LTD St Andrews Road HD1 6SB Huddersfield UNITED KINGDOM Eurofins Product Testing A/S Smedeskovvej 38 8464 Galten Denmark CustomerSupport@eurofins.com www.eurofins.com/voc-testing 1 Sample Information
More informationVOC TEST REPORT Tarkett Indoor Air Quality
Tarkett France 2, av Francois Sommer B.P. 40333 08203 SEDAN Cedex FRANCE Eurofins Product Testing A/S Smedeskovvej 38 8464 Galten Denmark VOC@eurofins.com www.eurofins.com/voc-testing 1 Sample Information
More informationVOC EMISSION TEST REPORT Indoor Air Comfort GOLD
Wasziederij De Vesting BV Trasweg 12 5712 BB Someren NETHERLANDS Eurofins Product Testing A/S Smedeskovvej 38 8464 Galten Denmark CustomerSupport@eurofins.com www.eurofins.com/voc-testing 1 Sample Information
More informationVOC EMISSION TEST REPORT Indoor Air Comfort
Protox ApS Fabriksvej 19 6000 Kolding DENMARK Eurofins Product Testing A/S Smedeskovvej 38 8464 Galten Denmark CustomerSupport@eurofins.com www.eurofins.com/voc-testing 1 Sample Information VOC EMISSION
More informationVOC EMISSION TEST REPORT Indoor Air Comfort GOLD
IEdiSa - GRAPHENSTONE Calle Carpinteros, 25 41520 EL VISO DEL ALCOR (Sevilla) SPAIN Eurofins Product Testing A/S Smedeskovvej 38 8464 Galten Denmark CustomerSupport@eurofins.com www.eurofins.com/voc-testing
More informationVOC TEST REPORT Indoor Air Comfort GOLD
Knauf Insulation sprl Rue de Maestricht 95 4600 VISÉ BELGIUM Eurofins Product Testing A/S Smedeskovvej 38 8464 Galten Denmark VOC@eurofins.com www.eurofins.com/voc-testing 1 Sample Information VOC TEST
More informationVOC TEST REPORT Indoor Air Comfort GOLD
Polyseam AS Ravnevejen 7 3174 Revetal NORWAY Eurofins Product Testing A/S Smedeskovvej 38 8464 Galten Denmark VOC@eurofins.com www.eurofins.com/voc-testing 1 Sample Information VOC TEST REPORT Indoor Air
More informationVOC TEST REPORT Indoor Air Comfort GOLD
Baux AB Östermalmsgatan 26A 114 26 Stockholm SWEDEN Eurofins Product Testing A/S Smedeskovvej 38 8464 Galten Denmark VOC@eurofins.com www.eurofins.com/voc-testing 1 Sample Information VOC TEST REPORT Indoor
More informationVOC TEST REPORT Indoor Air Comfort GOLD
Polyseam AS Ravnevejen 7 3174 Revetal NORWAY Eurofins Product Testing A/S Smedeskovvej 38 8464 Galten Denmark VOC@eurofins.com www.eurofins.com/voc-testing 1 Sample Information VOC TEST REPORT Indoor Air
More informationVOC TEST REPORT Indoor Air Comfort GOLD
AM Technology 1 Fore Street London EC2Y 5EJ UNITED KINGDOM Eurofins Product Testing A/S Smedeskovvej 38 8464 Galten Denmark VOC@eurofins.com www.eurofins.com/voc-testing 1 Sample Information VOC TEST REPORT
More informationVOC TEST REPORT Indoor Air Comfort
LENTEX S.A. Powstanców Slaskich 54 42-700 Lubliniec POLAND Eurofins Product Testing A/S Smedeskovvej 38 8464 Galten Denmark VOC@eurofins.com www.eurofins.com/voc-testing VOC TEST REPORT Indoor Air Comfort
More informationVOC TEST REPORT Indoor Air Comfort
Masureel Int. NV Kantstraat 1 8531 Hulste-Harelbeke BELGIUM Eurofins Product Testing A/S Smedeskovvej 38 8464 Galten Denmark VOC@eurofins.com www.eurofins.com/voc-testing VOC TEST REPORT Indoor Air Comfort
More informationVOC TEST REPORT EMICODE
Polyseam Ltd Shaw Park, Silver Street Huddersfield, West Yorkshire, HD5 9AF UK Eurofins Product Testing A/S Smedeskovvej 38 8464 Galten Denmark VOC@eurofins.com www.eurofins.com/voc-testing VOC TEST REPORT
More informationVOC TEST REPORT M1. 23 October Regulation or protocol Conclusion Version of regulation or protocol
Würth Oy Würthintie 1 11710 Riihimäki Finland Eurofins Product Testing A/S Smedeskovvej 38 8464 Galten Denmark VOC@eurofins.com www.eurofins.com/voc-testing VOC TEST REPORT M1 23 October 2017 1 Sample
More informationVOC TEST REPORT AgBB
Bostik SA 253 rue du Président Wilson 93211 La Plaine St Denis Cedex FRANCE Eurofins Product Testing A/S Smedeskovvej 38 8464 Galten Denmark VOC@eurofins.com www.eurofins.com/voc-testing VOC TEST REPORT
More informationVOC EMISSION TEST REPORT ISO 16000
Proxy A/S Gothersgade 12, 1.th 1123 København K DENMARK Eurofins Product Testing A/S Smedeskovvej 38 8464 Galten Denmark CustomerSupport@eurofins.com www.eurofins.com/voc-testing 1 Sample Information VOC
More informationVOC EMISSION TEST REPORT BREEAM NOR
Hey di AS Tretjerndalsveien 68 Pb 13 2017 Frogner NORWAY Eurofins Product Testing A/S Smedeskovvej 38 8464 Galten Denmark CustomerSupport@eurofins.com www.eurofins.com/voc-testing 1 Sample Information
More informationVOC TEST REPORT EMICODE
Bostik SA 253 rue du Président Wilson 93211 La Plaine St Denis Cedex FRANCE Eurofins Product Testing A/S Smedeskovvej 38 8464 Galten Denmark VOC@eurofins.com www.eurofins.com/voc-testing VOC TEST REPORT
More informationVOC TEST REPORT Indoor Air Comfort GOLD
Jotun Coating (Zhang Jia Gang) Co., Ltd No. 15 Changjiang Road Jiangsu Yangtze River International Chemical Industry Park 215634 Jingang Town CHINA Eurofins Product Testing A/S Smedeskovvej 38 8464 Galten
More informationVOC TEST REPORT M1. 6 April Regulation or protocol Conclusion Version of regulation or protocol
Dana Lim A/S Københavnsvej 220 4600 Køge DENMARK Eurofins Product Testing A/S Smedeskovvej 38 8464 Galten Denmark VOC@eurofins.com www.eurofins.com/voc-testing VOC TEST REPORT M1 6 April 2017 1 Sample
More informationVOC TEST REPORT M1. 16 August Regulation or protocol Conclusion Version of regulation or protocol
SGS-Doors A/S Thrigesvej 8-16 7430 Ikast DENMARK Eurofins Product Testing A/S Smedeskovvej 38 8464 Galten Denmark VOC@eurofins.com www.eurofins.com/voc-testing VOC TEST REPORT M1 16 August 2016 1 Sample
More informationVOC TEST REPORT CDPH
Baux AB Östermalmsgatan 26A 114 26 Stockholm SWEDEN Eurofins Product Testing A/S Smedeskovvej 38 8464 Galten Denmark VOC@eurofins.com www.eurofins.com/voc-testing VOC TEST REPORT CDPH 29 September 2017
More informationTest Report- VOC emission regulations in Europe
Protox Fabriksvej 19 6000 Kolding DENMARK Eurofins Product Testing A/S Smedeskovvej 38 8464 Galten Denmark voc@eurofins.com www.eurofins.com/voc-testing Date 13 August 2015 Test Report- VOC emission regulations
More informationTest Report- VOC emission regulations in Europe
Protox Aps Fabriksvej 19 6000 Kolding Denmark Eurofins Product Testing A/S Smedeskovvej 38 8464 Galten Denmark voc@eurofins.com www.eurofins.com/voc-testing Date 14 November 2014 Test Report- VOC emission
More informationTest Report- VOC emission regulations in Europe
CONICA AG Industriestr. 26 CH-8207 Schauffhausen Switzerland Eurofins Product Testing A/S Smedeskovvej 38 8464 Galten Denmark voc@eurofins.com www.eurofins.com/voc-testing Date 31 July 2014 Test Report-
More informationTest Report- VOC emission regulations in Europe
L Isolante K-flex Srl Via Leonardi da Vinci 36 20877 Roncello (MB) Italy Eurofins Product Testing A/S Smedeskovvej 38 8464 Galten Denmark voc@eurofins.com www.eurofins.com/voc-testing Date 29 August 2013
More informationVOC TEST REPORT CDPH
Adolf Würth GmbH und Co. KG Reinhold-Würth Str. 12-17 74653 Künzelsau GERMANY Eurofins Product Testing A/S Smedeskovvej 38 8464 Galten Denmark VOC@eurofins.com www.eurofins.com/voc-testing VOC TEST REPORT
More informationEMICODE Test Report. 1 Sample Information. 2 Evaluation of the Results. Report No. G12871B_02
Polyseam A/S Ravneveien 7 Linnestad Næringsområde 3174 Revetal Norway Eurofins Product Testing A/S Smedeskovvej 38 8464 Galten Denmark voc@eurofins.com www.eurofins.com/voc-testing Date 09 October 2014
More informationVOC TEST REPORT CDPH
Euro Trade Flooring SL. Pol. Ind. Can Estella c/galileo no. 11 08635 Sant Esteve Sesrovires BARCELONA SPAIN Eurofins Product Testing A/S Smedeskovvej 38 8464 Galten Denmark VOC@eurofins.com www.eurofins.com/voc-testing
More informationTest Report- VOC emission regulations in Europe
Scan Underlay ApS Dalgas Avenue 50 8000 Aarhus C Denmark Eurofins Product Testing A/S Smedeskovvej 38 8464 Galten Denmark voc@eurofins.com www.eurofins.com/voctesting Date 6 January 2015 Test Report VOC
More informationEMICODE Test Report. 1 Sample Information. 2 Evaluation of the Results. Report No A_04
Sika Technology AG Tüffenwies 16 8048 Zürich SWITZERLAND EMICODE Test Report 1 Sample Information Eurofins Product Testing A/S Smedeskovvej 38 8464 Galten Denmark voc@eurofins.com www.eurofins.com/voc-testing
More informationTest Report. Tremco-Illbruck GmbH & Co KG. Product Emissions Test (AgBB/DIBt Test Protocol) Butyl und Bitumenprimer. June 2011
Test Report Tremco-Illbruck GmbH & Co KG Product Emissions Test (AgBB/DIBt Test Protocol) Butyl und Bitumenprimer June 2011 Client: Tremco-Illbruck GmbH & Co KG Von Der Wettern Str. 27 51149 Köln Germany
More informationTest Report in accordance CDPH-IAQ
Scan Underlay ApS Smedeskovvej 38 Dalgas Avenue 50 8464 Galten 8000 Aarhus C Denmark Denmark voc@eurofins.com www.eurofins.com/voc-testing Test Report in accordance CDPH-IAQ Date 6 January 2015 1 Sample
More informationTest Report in accordance CDPH-IAQ
Hilti Entwicklungsgesellschaft GmbH Hiltistraße 6 86916 Kaufering Germany Test Report in accordance CDPH-IAQ Eurofins Product Testing A/S Smedeskovvej 38 8464 Galten Denmark voc@eurofins.com www.eurofins.com/voc-testing
More informationTEST REPORT Formaldehyde Reduction
Sigma Coatings Amsterdamseweg 14 1422 AA Uithoorn The Netherlands Eurofins Product Testing A/S Smedeskovvej 38 8464 Galten Denmark VOC@eurofins.com www.eurofins.com/voc-testing TEST REPORT Formaldehyde
More informationM1 Test Report. 1 Sample Information. 2 Evaluation of the Results. Report No A_04
Würth International AG Aspermontstrasse 1 CH-7000 Chur Switzerland M1 Test Report Eurofins Product Testing A/S Smedeskovvej 38 8464 Galten Denmark voc@eurofins.com www.eurofins.com/voc-testing Date 28
More informationTest Report. Muovihaka Oy. Product Emissions in accordance with the Swedish Building Material Assessment Ultima graphite.
Test Report Muovihaka Oy Product Emissions in accordance with the Swedish Building Material Assessment July 2012 Client: Muovihaka Oy Kuusimäentie 12 01900 Nurmijärvi Finland Date: 26 July 2012 Testing
More informationTest Report. Glava AS. Emission test of Ecophon Venus according to M1 classification. October / November Smedeskovvej 38, DK-8464 Galten
Test Report Glava AS Emission test of Ecophon Venus according to M1 classification October / November 2006 Client: Glava AS Nybråtveien 2 1832 Askim Norge Date: 8 th of November 2006 Testing Laboratory:
More informationTest Report ROMA USA LLC. Product Emissions of Furniture in accordance with. Cradle to Cradle section 5.8 ECODOMUS SATIN BASE TR.
Test Report ROMA USA LLC Product Emissions of Furniture in accordance with Cradle to Cradle section 5.8 ECODOMUS SATIN BASE TR March 2015 Client: ROMA USA LLC 554 North Avenue NW, Suite B Atlanta, GA 30318
More informationASTM D5116 Emissions Test Report with CDPH SM V Loading Scenarios per Cradle to Cradle Standard v3.0 Sect. 5.8
ROMA USA LLC 554-B North Ave. NW Atlanta, GA 30318 Eurofins Product Testing NA 180 Blue Ravine Road, Suite B Folsom, CA 95630 voc@eurofinsus.com www.eurofinsuspt.com ASTM D5116 Emissions Test Report with
More informationEmission measurements according to, M1 (3 appendices)
issued by an Accredited Testing Laboratory Contact person Ulrika Johansson 2017-01-30 6F024225-1 1 (6) Chemistry, Materials and Surfaces +46 10 516 53 22 ulrika.johansson@sp.se Accred. No. 1002 Testing
More informationTest Report No II
Sihl AG Bolligenstrasse 93 3006 Bern CH Test Report No. 51428-001 II Test objective: Sample description by client: Evaluation according to French VOC- and CMR-regulation Design2wall healt & clean Sampled
More informationCOMPLIANCE EMISSIONS TEST California Dept. of Public Health Standard Method Version 1.1 and FloorScore Flooring Evaluation
COMPLIANCE EMISSIONS TEST California Dept. of Public Health Standard Method Version 1.1 and FloorScore Flooring Evaluation SAMPLE DESCRIPTION & TESTING PARAMETERS Tesoro Woods submitted exemplars of their
More informationBERKELEY ANALYTICAL 815 Harbour Way South, Suite 6 Richmond, CA Ph ; Fax
BERKELEY ANALYTICAL 815 Harbour Way South, Suite 6 Richmond, CA 94804-3614 Ph. 510-236-2325; Fax 510-236-2335 E-mail info@berkeleyanalytical.com VOC Emissions from Building Products Customer & Building
More informationANALYTICAL METHOD DETERMINATION OF VOLATILE ALDEHYDES IN AMBIENT AIR Page 1 of 11 Air sampling and analysis
DETERMINATION OF VOLATILE ALDEHYDES IN AMBIENT AIR Page 1 of 11 Replaces: Dated: Author: Date: AM-No.: New New Nils Arne Jentoft 18.06.2014 0 CHANGES This procedure is new. 1 SCOPE This document describes
More informationAA-ANSIBIFMA-Jun2408, Page 1 of 16
356-001-01AA-ANSIBIFMA-Jun2408, Page 1 of 16 BERKELEY ANALYTICAL ASSOCIATES, LLC 815 Harbour Way South, Suite 6 Richmond, CA 94804-3612 Ph. 510-236-2325; Fax 510-236-2335 E-mail baalab@berkeleyanalytical.com
More informationBERKELEY ANALYTICAL 815 Harbour Way South, Suite 6 Richmond, CA Ph ; Fax
BERKELEY ANALYTICAL 815 Harbour Way South, Suite 6 Richmond, CA 94804-3614 Ph. 510-236-2325; Fax 510-236-2335 E-mail info@berkeleyanalytical.com VOC Emissions from Building Products Customer & Building
More informationTest report No. MAIC Testing and evaluating of a digital printed paper material according to AgBB/DIBt-scheme.
Fraunhofer Institute for Wood Research Wilhelm-Klauditz-Institut WKI Fraunhofer WKI Bienroder Weg 54 E 3818 Braunschweig Germany HP Espanola, S.L. Attn: Mr. Adrian Liga Cami de Can Graells, 1-21 8174 Sant
More informationBERKELEY ANALYTICAL 815 Harbour Way South, Suite 6 Richmond, CA Ph ; Fax
BERKELEY ANALYTICAL 815 Harbour Way South, Suite 6 Richmond, CA 94804-3614 Ph. 510-236-2325; Fax 510-236-2335 E-mail info@berkeleyanalytical.com VOC Emissions from Building Products Customer & Building
More informationInfluence Of The Substrates On Water-based Paints Emissions Fabio Abbà,1*, Mikaela Decio 2, Tiziano Cerulli 2 and Roberto Leoni 2
Influence Of The Substrates On Water-based Paints Emissions Fabio Abbà,1*, Mikaela Decio 2, Tiziano Cerulli 2 and Roberto Leoni 2 1 Vinavil S.p.A. R & D Laboratory, Via Toce, 7, 28844 Villadossola, Italy
More informationDetermination of Total Volatile Organic Compounds in Indoor Air Using Agilent 7667A mini TD and 7820A GC
Determination of Total Volatile Organic Compounds in Indoor Air Using Agilent 77A mini TD and 70A GC Application Note Environmental Authors Tingting Bu, Xiaohua Li Agilent Technologies (Shanghai) Co.,
More informationSURVEY OF CHEMICALS EMISSION FACTORS FROM BUILDING MATERIALS FOR INTERIORS
SURVEY OF CHEMICALS EMISSION FACTORS FROM BUILDING MATERIALS FOR INTERIORS Hitomi Yoshida Japan Testing Center for Construction Materials, Japan Abstract Indoor air pollution in buildings is caused by
More informationIntertek Environmental VOC Emissions
4700 Broadmoor SE, Suite 200 Kentwood, MI 49512 Jesse.ondersma@intertek.com Telephone: 616-656-7401 Facsimile: 616-656-2022 www.intertek.com ELIZABETH FATIMA DO NASCIMENTO AIME P.O.: N.A. Page 1 of 8 Intertek
More informationBERKELEY ANALYTICAL 815 Harbour Way South, Suite 6 Richmond, CA Ph ; Fax
BERKELEY ANALYTICAL 815 Harbour Way South, Suite 6 Richmond, CA 94804 Ph. 510-236-2325; Fax 510-236-2335 E-mail info@berkeleyanalytical.com VOC Emissions from Building Products Customer & Building Product
More informationTest report No. MAIC Chamber emission test of a leather sample.
Fraunhofer Institute for Wood Research Wilhelm-Klauditz-Institut WKI Fraunhofer WKI Bienroder Weg 54 E 38108 Braunschweig Germany ZHEJIANG KANCEN NEW MATERIAL TECHNOLOGY CO.,LTD Attn: Mr. Shen Min Min
More informationMOLEKULE INC. TEST REPORT
MOLEKULE INC. TEST REPORT SCOPE OF WORK VOC Emissions on Part C Test 1 REPORT NUMBER 103658037GRR-002 ISSUE DATE 18-October-2018 PAGES 8 DOCUMENT CONTROL NUMBER Per GFT-OP-10 (6-March-2017) 2018 INTERTEK
More informationThermal Desorption Technical Support. Note 56: TD-GC/MS analysis of vapour-phase organic compounds for materials emissions testing.
Thermal Desorption Technical Support Note 56: TD-GC/MS analysis of vapour-phase organic compounds for materials emissions testing Keywords certification protocols, (T)(V)(S)VOCs, ULTRA-UNITY, field/laboratory
More informationBERKELEY ANALYTICAL 815 Harbour Way South, Suite 6 Richmond, CA Ph ; Fax
BERKELEY ANALYTICAL 815 Harbour Way South, Suite 6 Richmond, CA 94804-3614 Ph. 510-236-2325; Fax 510-236-2335 E-mail info@berkeleyanalytical.com VOC Emissions from Building Products Customer & Building
More informationTHEORETICAL DETERMINATION OF THE SAMPLING RATES OF DIFFUSION SAMPLERS FOR VOCS AND ALDEHYDES
THEORETICAL DETERMINATION OF THE SAMPLING RATES OF DIFFUSION SAMPLERS FOR VOCS AND ALDEHYDES J Kouzaki 1*, S Sato 1, S Nakai 1, Y Shirasuna 2, K Hirano 2 1 Graduate School of Environmental and Information
More informationVolatile Organic Compound (VOC) Vluchtige Organische Stoffen (VOS)
Volatile Organic Compound (VOC) Vluchtige Organische Stoffen (VOS) Overzicht van definities Bron: Feica oktober 2007 EU 1999/10/EG (1996/13/EG) ( EC Ecolabel Paints and Varnishes directive ) any organic
More informationECMA Determination of Chemical Emission Rates from Electronic Equipment - Part 2 (not using-consumables) 8 th Edition / June 2017
ECMA-328-2 8 th Edition / June 2017 Determination of Chemical Emission Rates from Electronic Equipment - Part 2 (not using-consumables) Reference number ECMA-123:2009 Ecma International 2009 COPYRIGHT
More informationISO INTERNATIONAL STANDARD. Indoor air Part 2: Sampling strategy for formaldehyde
INTERNATIONAL STANDARD ISO 16000-2 First edition 2004-07-01 Indoor air Part 2: Sampling strategy for formaldehyde Air intérieur Partie 2: Stratégie d'échantillonnage du formaldéhyde Reference number ISO
More informationSUMMARY REPORT OF AIR MONITORING FOR LEED CERTIFICATION PHASE 2 SWANSFIELD ELEMENTARY SCHOOL 5610 CEDAR LANE COLUMBIA, MD PREPARED FOR:
SUMMARY REPORT OF AIR MONITORING FOR LEED CERTIFICATION PHASE 2 SWANSFIELD ELEMENTARY SCHOOL 5610 CEDAR LANE COLUMBIA, MD 21044 PREPARED FOR: HOWARD COUNTY PUBLIC SCHOOL SYSTEM 10910 ROUTE 108 ELLICOTT
More informationUV-PCO DEVICE FOR INDOOR VOCS REMOVAL: INVESTIGATION ON MULTIPLE COMPOUNDS EFFECT
UV-PCO DEVICE FOR INDOOR VOCS REMOVAL: INVESTIGATION ON MULTIPLE COMPOUNDS EFFECT WH Chen *, JS Zhang and ZB Zhang Dept. of Mechanical and Aerospace Engineering, Syracuse University, Syracuse, NY 3244,
More informationApplication Note 116 Monitoring VOCs in Ambient Air Using Sorbent Tubes with Analysis by TD-GC/MS in Accordance with Chinese EPA Method HJ
Application Note Monitoring VOCs in Ambient Air Using Sorbent Tubes with Analysis by TD-GC/MS in Accordance with Chinese EPA Method HJ -3 Application Note Abstract This application note demonstrates the
More informationThis document is a preview generated by EVS
INTERNATIONAL STANDARD ISO 16000-3 Second edition 2011-10-15 Indoor air Part 3: Determination of formaldehyde and other carbonyl compounds in indoor air and test chamber air Active sampling method Air
More informationDetection of Volatile Organic Compounds in polluted air by an Agilent mini Thermal Desorber and an Agilent 5975T LTM GC/MS
Detection of Volatile Organic Compounds in polluted air by an Agilent mini Thermal Desorber and an Agilent 5975T LTM GC/MS Application Note Environmental Author Xiaohua Li Agilent Technologies (Shanghai)
More informationAuthor. Abstract. Introduction
Improved Performance for the Analysis of Aromatics in Gasoline by ASTM Method D5769 Using the Agilent 5973 inert Gas Chromatography/Mass Spectrometry System Application Author James D. McCurry Agilent
More informationDetermination of Formaldehyde and VOCs in Wood-based Products using an Automated Micro-Scale Chamber
Determination of Formaldehyde and VOCs in Wood-based Products using an Automated Micro-Scale Chamber Yunyun Nie, Oliver Lerch, Eike Kleine-Benne GERSTEL GmbH & Co. KG, Eberhard-Gerstel-Platz 1, 45473 Mülheim
More informationApplying the Technology of the TurboMatrix 650 ATD to the Analysis of Liquid Accelerants in Arson Investigation
Applying the Technology of the TurboMatrix 650 ATD to the Analysis of Liquid Accelerants in Arson Investigation Introduction Fire investigation involves many different types of analyses from crime scene
More informationCertificate of Analysis
Certificate of Analysis Reference Material - Primary Standard Product Name: Metoprolol Tartrate 1.0 mg/ml in Methanol (as free base) Catalogue Number: LGCAMP0027.00-01 Lot Number: 8525 CAS Number: 56392-17-7
More informationMagnitudes of Back Diffusion During Long-Term Diffusive Sampling of Volatile Organic Compounds Using Carbotrap and Chromosorb 106
Turk J Chem 24 (2000), 131 139. c TÜBİTAK Magnitudes of Back Diffusion During Long-Term Diffusive Sampling of Volatile Organic Compounds Using Carbotrap and Chromosorb 106 Naciye KILIÇ University of Uludağ,
More informationINNOVATIVE PRODUCTS, SUPERIOR SUPPORT. Presenter: Anne Jurek, Senior Applications Chemist, EST Analytical
INNOVATIVE PRODUCTS, SUPERIOR SUPPORT Presenter: Anne Jurek, Senior Applications Chemist,, pp, EST Analytical Air pollution is a growing problem due to the global economy and industrial development in
More informationU.S. EPA VOLATILE ORGANICS METHOD USING PURGE AND TRAP GC/MS
ENVIRONMENTAL application note U.S. EPA VOLATILE ORGANICS METHOD 524.2 USING PURGE AND TRAP GC/MS Cheri Coody, Public Health Laboratory, Mississippi State Health Department, Jackson, MS USA Michael J.
More informationCertificate of Analysis
Certificate of Analysis Reference Material - Primary Standard Product Name: LSD (Lysergic Acid Diethylamide) 1.0 mg/ml in Acetonitrile Catalogue Number: Lot Number: 16905 LGCAMP1346.00-11 O CAS Number:
More informationDetermination of VOC in Artificial Runway by Multiple Headspace Extraction-GC/MS. Gas Chromatography/ Mass Spectrometry APPLICATION.
APPLICATION NOTE Gas Chromatography/ Mass Spectrometry Author: Kira. Yang PerkinElmer, Inc. Shanghai, China Determination of VOC in Artificial Runway by Multiple Headspace Extraction-GC/MS Introduction
More informationHJ/T Translated English of Chinese Standard: HJ/T
Translated English of Chinese Standard: HJ/T400-2007 www.chinesestandard.net Sales@ChineseStandard.net NATIONAL STANDARD OF THE PEOPLE S REPUBLIC OF CHINA GB HJ/T 400-2007 Determination of Volatile Organic
More informationValidation of New VPH GC/MS Method using Multi-Matrix Purge and Trap Sample Prep System
Validation of New VPH GC/MS Method using Multi-Matrix Purge and Trap Sample Prep System Application Note Abstract The Massachusetts Department of Environmental Protection (MassDEP) developed the Method
More informationISO INTERNATIONAL STANDARD
INTERNATIONAL STANDARD ISO 16000-24 First edition 2009-12-15 Indoor air Part 24: Performance test for evaluating the reduction of volatile organic compound (except formaldehyde) concentrations by sorptive
More informationApplication Note 032
Application Note 3 Analysis of Sulfur Compounds Using On-line and Off line TD GC Application Note Abstract This application note shows how Markes TD technology is compatible with trace level sulfur compounds,
More informationCertificate of Analysis
Certificate of Analysis Reference Material - Primary Standard Product Name: Oxycodone 1.0 mg/ml in Methanol Catalogue Number: Lot Number: 37583 LGCAMP0672.10-01 CAS Number: 76-42-6 Molecular Formula: C
More informationThermal Desorption Technical Support
Thermal Desorption Technical Support Note 86a: US EPA Method TO-17 for Monitoring Air Toxics in Ambient Air Using Sorbent Tubes and Automated, Cryogen-free Thermal Desorption Application Note Environmental,
More informationMethanol Extraction of high level soil samples by USEPA Method 8260C
Methanol Extraction of high level soil samples by USEPA Method 8260C Abstract In order to determine the concentration of Volatile Organic Compounds (VOCs) in soil and waste samples the USEPA developed
More informationDETERMINATION OF UPTAKE RATES FOR VOCs IN AMBIENT AIR BY USING AXIAL TYPE THERMAL DESORPTION PASSIVE TUBES
DETERMINATION OF UPTAKE RATES FOR VOCs IN AMBIENT AIR BY USING AXIAL TYPE THERMAL DESORPTION PASSIVE TUBES Mihriban Yılmaz Civan, Öznur Kuntasal and Gürdal Tuncel 1 1 OUTLINE Introduction Importance and
More informationDetermination of VOCs by USEPA Method 8260 with Extended Dynamic Range using Fast, Sensitive Capillary GC/MS
PO-CON1609E Determination of VOCs by USEPA Method 8260 with Extended Dynamic Range using Fast, Sensitive Capillary GC/MS Pittcon 2016 1110-1 Brahm Prakash, William Lipps, Di Wang, Shilpi Chopra, Nicole
More informationMethod for the determination of dimethyl sulfate
German Social Accident Insurance Deutsche Gesetzliche Unfallversicherung Analytical Subcommittee of the Chemistry Board of Experts* Carcinogenic substances Order number: BGI 505-7-05 Established methods:
More informationCERTIFICATE OF COMPLIANCE
CERTIFICATE OF COMPLIANCE Bernhardt Design Chloe 136055-410 Certificate Number 02/21/2019-12/21/2019 Certificate Period Certified Status UL 2818-2013 Standard for Chemical Emissions for Building Materials,
More informationApplication Note. Abstract. Introduction. Experimental-Instrument Conditions. By: Anne Jurek
Automated Handling Techniques for the Analysis of Elevated Volatile Organic Compound (VOC) Concentrations in Soils Utilizing the Atomx Concentrator/Multimatrix Autosampler. Application Note By: Anne Jurek
More informationEstimation Method of Emission Rate and Effective Diffusion Coefficient using Micro Cell
Estimation Method of Emission Rate and Effective Diffusion Coefficient using Micro Cell Kaoru TAKIGASAKI 1,2, Kazuhide ITO 2,3 1 Maeda Corporation, Japan 2 Tokyo Polytechnic University, Japan 3 Kyushu
More informationIMPROVEMENT OF IAQ BY COATING OF ADSORPTIVE POLYMER: THE DEVELOPMENT OF MATERIAL, EVALUATION AND ITS APPLICATION
IMPROVEMENT OF IAQ BY COATING OF ADSORPTIVE POLYMER: THE DEVELOPMENT OF MATERIAL, EVALUATION AND ITS APPLICATION M Hori 1*, T Ohkawara 2, S Handa 2 and T Wakui 1 1 Yokohama National University; Yokohama,
More informationAnalysis of USP Method <467> Residual Solvents on the Agilent 8890 GC System
Application Note Residual Solvent Analysis of USP Method Residual Solvents on the Agilent 889 GC System Author Lukas Wieder, Jie Pan, and Rebecca Veeneman Agilent Technologies, Inc. 8 Centerville Road
More informationThe Analysis of Residual Solvents in Pharmaceutical Products Using GC-VUV and Static Headspace
The Analysis of Residual Solvents in Pharmaceutical Products Using GC-VUV and Static Headspace The Analysis of Residual Solvents in Pharmaceutical Products Using GC-VUV and Static Headspace_Rev3 Introducing
More informationLAMBTON SCIENTIFIC (A Division of Technical Chemical Services Inc.)
LAMBTON SCIENTIFIC (A Division of Technical Chemical Services Inc.) SOP-316 391 S. Vidal St., Sarnia, Ontario, N7T 7L1 Phone: (519) 344-4747 Fax: (519) 344-2350 E-Mail: info@lambtonscientific.com Method
More informationValidation of Volatile Organic Compound by USEPA. Method 8260C. Application Note. Abstract. Introduction. Experimental-Instrument Conditions
Validation of Volatile Organic Compound by USEPA Method 8260C Application Note Abstract In order to determine the concentration of volatile organic compounds (VOCs) in water and soil matrices the USEPA
More informationVapor Intrusion Sampling Options: Performance Data for Canisters, Badges, and Sorbent Tubes for VOCs
Vapor Intrusion Sampling Options: Performance Data for s, Badges, and Sorbent Tubes for VOCs Linda S. Coyne SKC Inc., 863 Valley View Road, Eighty Four, PA 1533 George Havalias, Maria C. Echarte American
More informationAnalysis of Trace (mg/kg) Thiophene in Benzene Using Two-Dimensional Gas Chromatography and Flame Ionization Detection Application
Analysis of Trace (mg/kg) Thiophene in Using Two-Dimensional Gas Chromatography and Flame Ionization Detection Application Petrochemical Authors James D. McCurry and Bruce D. Quimby Agilent Technologies
More informationTar analysis by Solid Phase Adsorption (SPA) associated with Thermal Desorption (TD) and Gas Chromatography (GC) analysis
Tar analysis by Solid Phase Adsorption (SPA) associated with Thermal Desorption (TD) and Gas Chromatography (GC) analysis E. Masson (CRITT Bois, Epinal, France) A. Dufour (CNRS, Nancy, France) International
More informationApplication Note 059 Direct Desorption of Car Trim Materials for VOC and SVOC Analysis in Accordance with VDA Method 278
Application Note Direct Desorption of Car Trim Materials for VOC and SVOC Analysis in Accordance with VDA Method Application Note Abstract In this application note, we demonstrate the suitability of Markes
More informationApplication Note. Application Note 081 Innovative Cryogen-Free Ambient Air Monitoring in Compliance with US EPA Method TO-15. Abstract.
Application Note 8 Innovative Cryogen-Free Ambient Air Monitoring in Compliance with US EPA Method TO-5 Application Note Environmental, Canister, TO-5, Air Monitoring, Air Toxics Abstract This application
More information